Perpendicular magnetic recording disk with template layer formed of a blend of nanoparticles

a technology of nanoparticles and magnetic recording disks, applied in the direction of magnetic materials for record carriers, instruments, transportation and packaging, etc., can solve the problems of low grain pitch distribution and disruption of long range ordering, and achieve accurate control, small diameter distribution, and low polydispersity

Active Publication Date: 2015-08-06
WESTERN DIGITAL TECH INC
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Benefits of technology

[0016]One of the nanoparticles types has a diameter greater than 105% of the diameter of the other nanoparticle type and is present in the total blend of nanoparticles of between about 5% and 35% or between about 55% and 90%. Both the nanoparticle core and the core with polymer ligand for each nanoparticle type has a size or diameter with low poly-dispersity, meaning that there

Problems solved by technology

As a result of the blend of two sizes of nanoparticles in the template layer, the resulting RL will have low g

Method used

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  • Perpendicular magnetic recording disk with template layer formed of a blend of nanoparticles
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  • Perpendicular magnetic recording disk with template layer formed of a blend of nanoparticles

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Embodiment Construction

[0029]FIG. 3 is a side sectional view of the continuous-media perpendicular magnetic recording disk according to an embodiment of the invention. In the disk according to this invention a nanoparticle template layer (TL) and at least one seed layer (SL1), both of which will be described in detail below, are located between the substrate and the Ru or Ru alloy underlayer (UL).

[0030]The disk substrate may be any commercially available glass substrate or a wafer or disk of a material such as, but not limited to, silicon (Si), fused quartz, carbon, or a silicon nitride (SiNx). An optional conventional SUL (not shown in FIG. 3) may be located between the substrate and the TL. The SUL may be a single soft magnetic layer (as shown in FIG. 1) or a multilayer of soft magnetic layers separated by nonmagnetic layers. The SUL layer or layers are formed of amorphous magnetically permeable materials such as alloys of CoNiFe, FeCoB, CoCuFe, NiFe, FeAlSi, FeTaN, FeN, FeTaC, CoTaZr, CoFeB, and CoZrNb...

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Abstract

A continuous-media perpendicular magnetic recording disk has a granular recording layer (RL) with controlled grain pitch distribution and controlled long range ordering of the grains. The disk includes a substrate with a template layer for the RL that comprises a blend of at least two different sized nanoparticles. The nanoparticles have a nanoparticle core with attached polymer ligands. The nanoparticle cores protrude above the surface of the template layer to provide a nonplanar surface topology. The blend of two sizes of nanoparticles causes the RL to have low grain pitch distribution and a disruption of long range ordering so that there are no large magnetic rafts. One of the nanoparticles types has a diameter greater than 105% of the diameter of the other nanoparticle type and is present in the total blend of nanoparticles of between about 5% and 35% or between about 55% and 90%.

Description

BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]This invention relates generally to perpendicular magnetic recording media, such as perpendicular magnetic recording disks for use in magnetic recording hard disk drives, and more particularly to a continuous-media type of perpendicular magnetic recording disk with a granular recording layer having controlled grain size.[0003]2. Description of the Related Art[0004]In a “continuous-media” perpendicular magnetic recording disk, the recording layer is a continuous layer of granular cobalt-alloy magnetic material that becomes formed into concentric data tracks containing the magnetically recorded data bits when the write head writes on the magnetic material. Continuous-media disks, to which the present invention is directed, are to be distinguished from “bit-patterned-media” (BPM) disks, which have been proposed to increase data density. In BPM disks, the magnetizable material on the disk is patterned into small isolated da...

Claims

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Application Information

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IPC IPC(8): G11B5/73
CPCG11B5/7325G11B5/7375G11B5/7368G11B5/7369B22F1/0545B22F1/052
Inventor GURNEY, BRUCE ALVINRUIZ, RICARDOWANG, SHI-LING CHANGZHU, QINGZOU, HAN
Owner WESTERN DIGITAL TECH INC
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